Hostname: page-component-848d4c4894-pjpqr Total loading time: 0 Render date: 2024-07-06T13:24:24.082Z Has data issue: false hasContentIssue false
  • English
  • Français

Machinery arrangements for small Vtol transport aircraft

Published online by Cambridge University Press:  04 July 2016

D. C. MacPhail ,
A. S. Jackson  and
E. S. Moore
D. C. MacPhail
Affiliation:
National Research Council, Canada
A. S. Jackson
Affiliation:
National Research Council, Canada
E. S. Moore
Affiliation:
National Research Council, Canada
Get access Rights & Permissions [Opens in a new window]

Summary

Aircraft plying between urban and outlying communities usually enjoy a runway with noise restrictions at the urban end and perhaps little to land on at the other end, but with no objection to noisy operation. The existence of this situation in northern Canada persuaded the National Research Council to embark — some thirty years ago — on an investigation of powered lift possibilities, with strong support from the trunk and regional airlines, the charter and helicopter operators, and various manufacturers.

From a number of generic lift-propulsion arrangements examined in greater or lesser detail, a selection are described here in increasing order of what the certifying authorities call “damage tolerance” or reduced dependence on “critical parts”. Freedom from demands for hovering endurance and quietness, combined with emphasis on small aircraft, offered encouragement to attack what is otherwise a very difficult task. Of the alternatives, only one, which incorporated transverse axis fans and the light weight gas turbines now available, emerged as a potentially satisfactory choice for small rugged transport aircraft.

The project was discontinued because of pressure of other work, but is recounted here in case others may discern wider market possibilities. A small Vtol aircraft should, if successful, be a useful precursor to sophisticated airliners capable of taking off and landing without a run.

Type
Research Article
Information
The Aeronautical Journal , Volume 97 , Issue 963 , March 1993 , pp. 101 - 110
Copyright
Copyright © Royal Aeronautical Society 1993 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Proceedings of the International Powered lift Conference, Santa Clara, California, December 1987.Google Scholar
2. International Powered Lift Conference, Royal Aeronautical Society, London, August 1990.Google Scholar
3. Commonwealth Advisory Aeronautical Council, (CAARC) Report of the Fifth Meeting, 23 September-5 October 1957.Google Scholar
4. Griffith, A.A. The Use of Jet Lift in the Civil Transport Field, Commonwealth Advisory Aeronautical Research Council Report No 383, 1957 Google Scholar
5. Shenstone, B.S. Vtol for Airlines, Commonwealth Advisory Aeronautical Research Council Report No 385, 1957 Google Scholar
6. Mark, H. Aircraft without airports. The tiltrotor concept and Vtol aviation. Seventy-Fifth Wilbur and Orville Wright Lecture, Royal Aeronautical Society, 11th December, 1986, Aerospace, March 1987.Google Scholar
7. Wind Tunnel Tests on the Boulton-Paul Rectangular Wing with Lifting Fan Series 1, Aeronautical Research Council Report No 20, 1958 Google Scholar
8. Tyler, R.A. and Williamson, R.G. Intake Flow and Fan Performance Measurements at High Thrust Loadings in Inclined Flow, National Research Council of Canada, NRC No. 9098, Aeronautical Report No LR-453, 1966 Google Scholar
9. Wilde, G.L. Jet engines and power plants for Vtol aircraft, Journal of the Royal Aeronautical Society, September 1961, p 599.Google Scholar
10. Tyler, R.A. and Williamson, R.G. Cross flow performance of lift fans in tandem, 3rd International Symposium on Air Breathing Engines, Munich, 7-12 March, 1976 Google Scholar
11. Tyler, R.A. A Proposed Aircraft Lift/Thrust Power Plant Arrangement, National Research Council of Canada, NRC No 6134, Aeronautical Report No LR-293, December 1960.Google Scholar
12. Eck, B. Fans. Design and Operation of Centrifugal, Axial Flow and Cross Flow Fans, Pergamon Press, 1975.Google Scholar
13. Tyler, R.A. and Williamson, R.G. Experimental Investigation of Slotted Engine Intakes in the Upper Surface of a Thick Wing, National Research Council of Canada, NRC No 11084, Aeronautical Report No LR-526, December 1968.Google Scholar
14. Gordon, A.C. 1991 Cierva Lecture, Aberdeen and its influence on the evolution of the commercial IFR twin engined helicopter, Aeronaut J, May 1992, 96, (955), pp 169184.Google Scholar